Lymphatic filariasis

Lymphatic filariasis

"Bellevue Venus" Oscar G. Mason's portrait of a woman with elephantiasis.
Classification and external resources
Specialty Infectious disease
ICD-10 B74
ICD-9-CM 125.0-125.9
eMedicine derm/888
MeSH D005368

Lymphatic filariasis, also known as elephantiasis tropica, is caused by parasitic worms of the roundworm family. Many cases of the disease have no symptoms. Some people however, develop large amounts of swelling of the arms, legs, or genitals. The skin may also become thicker, and pain may occur. The changes to the body can cause social and economic problems for the affected person.[1]

The worms are spread by the bites of infected mosquitoes. Infections usually begin when people are children. Three types of worms can cause the disease: Wuchereria bancrofti, Brugia malayi, and Brugia timori. Wuchereria bancrofti is the most common. The worms damage the lymphatic system.[1] The disease is diagnosed by looking, under a microscope, at blood collected during the night. The blood should be in the form of a thick smear and stained with Giemsa stain. Testing the blood for antibodies against the disease may also be used.[2]

Prevention is by treating, yearly, entire groups in which the disease exists, in an effort to get rid of the disease in that group. This takes about six years. Medications used include antiparasitics such as albendazole with ivermectin, or albendazole with diethylcarbamazine. The medications do not kill the adult worms but prevent further spread of the disease until the worms die on their own. Efforts to prevent mosquito bites are also recommended, including reducing the number of mosquitoes and promoting the use of bed nets.[1]

More than 120 million people are infected with lymphatic filariasis and about 1.4 billion people are at risk of the disease in 73 countries. It is most common in Africa and Asia. The disease results in economic losses of many billions of dollars a year.[1]

Signs and symptoms

The most spectacular symptom of lymphatic filariasis is elephantiasis— edema with thickening of the skin and underlying tissues; this was the first disease discovered to be transmitted by mosquito bites.[3] Elephantiasis results when the parasites lodge in the lymphatic system.

The skin condition the disease causes is called "elephantiasis tropica" (also known as "elephantiasis arabum").[4]:438

Elephantiasis mainly affects the lower extremities; the ears, mucous membranes, and amputation stumps are affected less frequently. However, various species of filarial worms tend to affect different parts of the body: Wuchereria bancrofti can affect the arms, breasts, legs, scrotum, and vulva (causing hydrocele formation), while Brugia timori rarely affects the genitals. Those who develop the chronic stages of elephantiasis are usually amicrofilaraemic and often have adverse immunological reactions to the microfilariae as well as the adult worms.

The subcutaneous worms present with skin rashes, urticarial papules, and arthritis, as well as hyper- and hypopigmentation macules. Onchocerca volvulus manifests itself in the eyes, causing "river blindness" (onchocerciasis), one of the leading causes of blindness in the world.[5] [6]

Serous cavity filariasis presents with symptoms similar to subcutaneous filariasis, in addition to abdominal pain, because these worms are also deep-tissue dwellers.

Elephantiasis leads to marked swelling of the lower half of the body.

Causes

Life cycle of Wuchereria bancrofti, a parasite that causes lymphatic filariasis

Elephantiasis occurs in the presence of microscopic, thread-like parasitic worms such as Wuchereria bancrofti (the most common[1]), Brugia malayi, and Brugia timori (also known as B. timori), all of which are transmitted by bites from infected mosquitoes.[7] Infections usually begin when people are children. Three types of worms cause the disease and damage the lymphatic system:

The disease itself is a result of a complex interplay between several factors: the worm, the symbiotic Wolbachia bacteria within the worm, the host’s immune response, and the numerous opportunistic infections and disorders that arise. The adult worms only live in the human lymphatic system.[8] The parasite infects the lymph nodes and blocks the flow of lymph throughout the body; this results in chronic edema, most often noted in the lower torso (typically in the legs and genitals).[9]

Diagnosis

The standard method for diagnosing active infection is by finding the microfilariae via microscopic examination.[10] This may be difficult, as in most parts of the world, microfilariae only circulate in the blood at night.[2][10] For this reason, the blood has to be collected nocturnally.[10] The blood should be in the form of a thick smear and stained with Giemsa. Testing the blood for antibodies against the disease may also be used.[2]

Prevention

The World Health Organization recommends treating entire groups of people who are at risk with a single annual dose of two medicines, namely albendazole in combination with either ivermectin or diethylcarbamazine citrate.[11] Transmission of the infection can be broken when a single dose of these combined oral medicines is consistently maintained annually for a duration of four to six years.[11]

One strategy for eliminating transmission of lymphatic filariasis is mass distribution of medicines that kill the microfilariae and stop transmission of the parasite by mosquitoes in endemic communities.[12] With consistent treatment, since the disease needs a human host, the reduction of microfilariae means the disease will not be transmitted, the adult worms will die out, and the cycle will be broken. In sub-Saharan Africa, albendazole (donated by GlaxoSmithKline) is being used with ivermectin (donated by Merck & Co.) to treat the disease, whereas elsewhere in the world, albendazole is used with diethylcarbamazine.[13] Using a combination of treatments better reduces the number of microfilariae in blood. Avoiding mosquito bites, such as by using insecticide-treated mosquito bed nets, also reduces the transmission of lymphatic filariasis.[12][14] The Carter Center's International Task Force for Disease Eradication declared lymphatic filariaisis one of six potentially eradicable diseases.[12]

According to medical experts, the worldwide effort to eliminate lymphatic filariasis is on track to potentially succeed by 2020.[15]

For similar-looking but causally unrelated podoconiosis, international awareness of the disease will have to increase before elimination is possible. In 2011, podoconiosis was added to the World Health Organization's Neglected Tropical Diseases list, which was an important milestone in raising global awareness of the condition.[16] The efforts of the Global Programme to Eliminate LF are estimated to have prevented 6.6 million new filariasis cases from developing in children between 2000 and 2007, and to have stopped the progression of the disease in another 9.5 million people who had already contracted it.[17] Dr. Mwele Malecela, who chairs the programme, said: "We are on track to accomplish our goal of elimination by 2020."[15] In 2010, the WHO published a detailed progress report on the elimination campaign in which they assert that of the 81 countries with endemic LF, 53 have implemented mass drug administration, and 37 have completed five or more rounds in some areas, though urban areas remain problematic.[18]

Treatment

Treatments for lymphatic filariasis differ depending on the geographic location of the endemic area.[13] In sub-Saharan Africa, albendazole is being used with ivermectin to treat the disease, whereas elsewhere in the world, albendazole is used with diethylcarbamazine.[13] Geo-targeting treatments is part of a larger strategy to eventually eliminate lymphatic filariasis by 2020.[13]

A complementary form of effective treatment involves rigorous cleaning of the affected areas of the body. Several studies have shown that these daily cleaning routines can be an effective way to limit the symptoms of lymphatic filariasis. The efficacy of these treatments suggests that many of the symptoms of elephantiasis are not directly a result of the lymphatic filariasis but rather the effect of secondary skin infections.

Additionally, surgical treatment may be helpful for issues related to scrotal elephantiasis and hydrocele. However, surgery is generally ineffective at correcting elephantiasis of the limbs. A vaccine is not yet available but in 2013 the University of Illinois was reporting 95% efficacity in testing against B. malayi in mice.[19]

Treatment for podoconiosis consists of consistent shoe-wearing (to avoid contact with the irritant soil) and hygiene - daily soaking in water with an antiseptic (such as bleach) added, washing the feet and legs with soap and water, application of ointment, and in some cases, wearing elastic bandages.[20] Antibiotics are used in cases of infection.[21]

Antibiotics

A 2003 study first suggested that the common antibiotic doxycycline might be effective in treating lymphatic filariasis.[21] The parasites responsible for elephantiasis have a population of symbiotic bacteria, Wolbachia, that live inside the worm. When the symbiotic bacteria of the adult worms are killed by the antibiotic, reproductive abnormalities that occur in the absence of the bacteria either kill their larvae or prevent their normal development. This permanently sterilizes the adult worms, which additionally die within 1 or 2 years instead of after their normal 10 to 14 years lifespan. [22]

Clinical trials by the Liverpool School of Tropical Medicine in June 2005 reported that an eight-week course almost completely eliminated microfilariaemia.[23]

Prognosis

About 40 million people were disfigured or incapacitated by the disease in 2015.[24] Elephantiasis caused by lymphatic filariasis is one of the most common causes of disability in the world.[13] In endemic communities, approximately 10 percent of women can be affected with swollen limbs, and 50 percent of men can have mutilating genital disease.[13] In areas endemic for podoconiosis, prevalence can be 5% or higher.[25]

Epidemiology

Disability-adjusted life year for lymphatic filariasis per 100,000 inhabitants
  no data
  less than 10
  10-50
  50-70
  70-80
  80-90
  90-100
  100-150
  150-200
  200-300
  300-400
  400-500
  more than 500

A 2012 report noted that lymphatic filariasis affected 120 million people[26] and one billion people at risk for infection.[27] It is considered endemic in tropical and subtropical regions of Africa, Asia, Central and South America, and Pacific Island nations.

In communities where lymphatic filariasis is endemic, as many as 10% of women can be afflicted with swollen limbs, and 50% of men can suffer from mutilating genital symptoms.[13]

Filariasis is considered endemic in 73 countries; 37 of these are in Africa.

In many of these countries, considerable progress has been made towards elimination of filariasis. Elimination of the disease may have been achieved in several countries, but awaits official confirmation by the WHO.

History

Lymphatic filariasis is thought to have affected humans for about 4000 years.[28] Artifacts from ancient Egypt (2000 BC) and the Nok civilization in West Africa (500 BC) show possible elephantiasis symptoms. The first clear reference to the disease occurs in ancient Greek literature, wherein scholars differentiated the often similar symptoms of lymphatic filariasis from those of leprosy.

The first documentation of symptoms occurred in the 16th century, when Jan Huyghen van Linschoten wrote about the disease during the exploration of Goa. Similar symptoms were reported by subsequent explorers in areas of Asia and Africa, though an understanding of the disease did not begin to develop until centuries later.

In 1866, Timothy Lewis, building on the work of Jean Nicolas Demarquay and Otto Henry Wucherer, made the connection between microfilariae and elephantiasis, establishing the course of research that would ultimately explain the disease. In 1876, Joseph Bancroft discovered the adult form of the worm. In 1877, the lifecycle involving an arthropod vector was theorized by Patrick Manson, who proceeded to demonstrate the presence of the worms in mosquitoes. Manson incorrectly hypothesized that the disease was transmitted through skin contact with water in which the mosquitoes had laid eggs. In 1900, George Carmichael Low determined the actual transmission method by discovering the presence of the worm in the proboscis of the mosquito vector.[28]

Many people in Malabar, Nayars as well as Brahmans and their wives — in fact about a quarter or a fifth of the total population, including the people of the lowest castes — have very large legs, swollen to a great size; and they die of this, and it is an ugly thing to see. They say that this is due to the water through which they go, because the country is marshy. This is called pericaes in the native language, and all the swelling is the same from the knees downward, and they have no pain, nor do they take any notice of this infirmity.
-Portuguese diplomat Tomé Pires, Suma Oriental, 1512–1515.[29]

Research directions

University of Illinois at Chicago (UIC) inventors have developed a novel vaccine for the prevention of lymphatic filariasis. This vaccine has been shown to elicit strong, protective immune responses in mouse models of lymphatic filariasis infection.The immune response elicited by this vaccine has been demonstrated to be protective against both W. bancrofti and B. malayi infection.[30]

On September 20, 2007, geneticists mapped the genome (genetic content) of Brugia malayi, the roundworm which causes elephantiasis (lymphatic filariasis). Determining the content of the genes might lead to development of new drugs and vaccines.[31]

See also

References

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  2. 1 2 3 "Parasites - Lymphatic Filariasis Diagnosis". CDC. June 14, 2013. Retrieved 21 March 2014.
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  8. Niwa, Seiji. "Prevalence of Vizcarrondo worms in early onset lymphatic filariasis: A case study in testicular elephantiasis". Univ Puerto Rico Med J 22: 187193.
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  18. Progress report 2000-2009 and strategic plan 2010-2020 of the global programme to eliminate lymphatic filariasis: halfway towards eliminating lymphatic filariasis (PDF). World Health Organization. 2010. ISBN 978-92-4-150072-2{{inconsistent citations}}
  19. Dakshinamoorthy, G; Samykutty, AK; Munirathinam, G; Reddy, MV; Kalyanasundaram, R (15 March 2013). "Multivalent fusion protein vaccine for lymphatic filariasis.". Vaccine 31 (12): 1616–22. PMID 23036503.
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  28. 1 2 "Lymphatic Filariasis Discovery". Retrieved 2008-11-21{{inconsistent citations}}
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  31. Ghedin, E.; Wang, S.; Spiro, D.; Caler, E.; Zhao, Q.; Crabtree, J.; Allen, J. E.; Delcher, A. L.; Guiliano, D. B.; Miranda-Saavedra, D.; Angiuoli, S. V.; Creasy, T.; Amedeo, P.; Haas, B.; El-Sayed, N. M.; Wortman, J. R.; Feldblyum, T.; Tallon, L.; Schatz, M.; Shumway, M.; Koo, H.; Salzberg, S. L.; Schobel, S.; Pertea, M.; Pop, M.; White, O.; Barton, G. J.; Carlow, C. K. S.; Crawford, M. J.; Daub, J. (2007). "Draft Genome of the Filarial Nematode Parasite Brugia malayi". Science 317 (5845): 1756–60. doi:10.1126/science.1145406. PMC 2613796. PMID 17885136.
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